Denisov Viktor Ivanovich

Publications in Math-Net.Ru

1. Development of the concept of natural geometry for physical interactions
   
   TMF, 191:2 (2017),  205–211
2. Using the concept of natural geometry in the nonlinear electrodynamics of the vacuum
   
   TMF, 172:3 (2012),  505–512
3. An integral relation for tensor polynomials
   
   TMF, 166:2 (2011),  216–224
4. Mathematical modeling of angular distortions in laser ranging of the RadioAstron satellite
   
   Zh. Vychisl. Mat. Mat. Fiz., 48:8 (2008),  1500–1509
5. Nonlinear electrodynamic lensing of electromagnetic waves in a magnetic dipole field
   
   TMF, 150:1 (2007),  85–94
6. Nonlinear Electromagnetic Delay of Electromagnetic Signals Propagating in the Magnetic Meridian Plane of Pulsars and Magnetars
   
   TMF, 140:1 (2004),  128–138
7. A Possibility for Studying Gravitational Properties of the Neutrino
   
   TMF, 138:1 (2004),  167–176
8. On the possibility of observing polarisation of vacuum in a magnetic field
   
   Kvantovaya Elektronika, 33:10 (2003),  938–940
9. Nonlinear Electrodynamic Delay of Electromagnetic Signals in a Coulomb Field
   
   TMF, 135:2 (2003),  322–330
10. Spectra of quantum systems in superstrong inertial force fields
    
    Kvantovaya Elektronika, 32:9 (2002),  833–834
11. Investigation of the Effective Space-Time of the Vacuum Nonlinear Electrodynamics in a Magnetic Dipole Field
    
    TMF, 132:2 (2002),  211–221
12. Interaction Effect of Plane Electromagnetic Waves in the Born–Infeld Nonlinear Electrodynamics
    
    TMF, 129:1 (2001),  131–139
13. On a partial solution of the equations of motion of a material point with a current element in the gravitational and magnetic fields of the Earth
    
    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2001, no. 6,  58–60
14. The use of ring lasers for the measurement of relativistic effects
    
    Kvantovaya Elektronika, 26:2 (1999),  171–174
15. On verifying the universality of gravitational interaction using an optical method
    
    TMF, 117:3 (1998),  498–503
16. Motion of a massive particle in the vicinity of a singular sphere
    
    TMF, 112:2 (1997),  337–352
17. Isotropic geodesics in the vicinity of singularity of static spherical symmetric solution
    
    TMF, 111:2 (1997),  312–320
18. Analysis of the solution properties of the relativistic theory of gravitation in the vicinity of a singular sphere
    
    TMF, 111:1 (1997),  144–148
19. The generalized Nordtvedt effect
    
    TMF, 110:3 (1997),  470–475
20. Parametrized post-Newtonian formalism for nonmetric theories of gravitation
    
    TMF, 96:1 (1993),  79–95
21. Generalization of the post-Newtonian formalism
    
    TMF, 91:3 (1992),  500–509
22. Further remarks on the inequlity of the inertial and gravitational masses in general relativity
    
    TMF, 85:1 (1990),  16–24
23. Motion of extended bodies in the extended parametrized post-Newtonian formalism
    
    TMF, 83:1 (1990),  129–135
24. Extension of the parametrized post-Newtonian formalism to the case of a quasi-Lorentz frame of reference
    
    TMF, 81:2 (1989),  301–314
25. Gravitational experiments in space
    
    TMF, 78:1 (1989),  3–10
26. Inequality of the passive gravitational mass and the inertial mass of an extended body
    
    TMF, 66:1 (1986),  3–12
27. On the relationship between inertial and gravitational masses in an extended body in metric theories of gravity
    
    Trudy Mat. Inst. Steklov., 167 (1985),  108–155
28. Interaction of a weak gravitational wave with the electromagnetic field of a neutron star in the field theory of gravitation and in the general theory of relativity
    
    TMF, 65:2 (1985),  255–270
29. Gravitational mechanism of suppression of matter density fluctuations in the early universe
    
    TMF, 62:1 (1985),  61–75
30. The energy determined in general relativity on the basis of the traditional Hamiltonian approach does not have physical meaning
    
    TMF, 56:2 (1983),  301–314
31. New ideas on the geometry of space-time and gravitation
    
    Itogi Nauki i Tekhniki. Ser. Sovrem. Probl. Mat., 21 (1982),  3–215
32. Einstein's formula for gravitational radiation is not a consequence of the general theory of relativity
    
    TMF, 53:3 (1982),  406–418
33. The inertial mass defined in the general theory of relativity has no physical meaning
    
    TMF, 51:2 (1982),  163–170
34. New theory of space-time and gravitation
    
    TMF, 50:1 (1982),  3–76
35. New mechanism of energy release in astrophysical objects
    
    TMF, 48:3 (1981),  275–283
36. Do extended bodies move along geodesics of Riemannian space-time?
    
    TMF, 47:1 (1981),  3–37
37. Does the general theory of relativity have a classical Newtonian limit?
    
    TMF, 45:3 (1980),  291–301
38. Does gravitational radiation exist in the general theory of relativity?
    
    TMF, 43:2 (1980),  187–201
39. Gravitational effects in the field theory of gravitation
    
    TMF, 43:2 (1980),  147–186
40. New concepts of space-time and gravitation
    
    TMF, 40:3 (1979),  291–328


41. On Faddeev's note
    
    TMF, 56:2 (1983),  316–320